// Copy from https://github.com/skarupke/flat_hash_map
// Modify the following points:
// 1. modify namespace ska to namespace paddle
// 2. modify std::max to (std::max) to fix the building failed problem on
// windows platform

//          Copyright Malte Skarupke 2017.
// Distributed under the Boost Software License, Version 1.0.
//    (See http://www.boost.org/LICENSE_1_0.txt)

#pragma once

#include <algorithm>
#include <cmath>
#include <cstddef>
#include <cstdint>
#include <functional>
#include <iterator>
#include <type_traits>
#include <utility>

#ifdef _MSC_VER
#define SKA_NOINLINE(...) __declspec(noinline) __VA_ARGS__
#else
#define SKA_NOINLINE(...) __VA_ARGS__ __attribute__((noinline))
#endif

namespace paddle {
struct prime_number_hash_policy;
struct power_of_two_hash_policy;
struct fibonacci_hash_policy;

namespace detailv3 {
template <typename Result, typename Functor>
struct functor_storage : Functor {
  functor_storage() = default;
  functor_storage(const Functor &functor) : Functor(functor) {}
  template <typename... Args>
  Result operator()(Args &&...args) {
    return static_cast<Functor &>(*this)(std::forward<Args>(args)...);
  }
  template <typename... Args>
  Result operator()(Args &&...args) const {
    return static_cast<const Functor &>(*this)(std::forward<Args>(args)...);
  }
};
template <typename Result, typename... Args>
struct functor_storage<Result, Result (*)(Args...)> {
  typedef Result (*function_ptr)(Args...);
  function_ptr function;
  functor_storage(function_ptr function) : function(function) {}
  Result operator()(Args... args) const {
    return function(std::forward<Args>(args)...);
  }
  operator function_ptr &() { return function; }
  operator const function_ptr &() { return function; }
};
template <typename key_type, typename value_type, typename hasher>
struct KeyOrValueHasher : functor_storage<size_t, hasher> {
  typedef functor_storage<size_t, hasher> hasher_storage;
  KeyOrValueHasher() = default;
  KeyOrValueHasher(const hasher &hash) : hasher_storage(hash) {}
  size_t operator()(const key_type &key) {
    return static_cast<hasher_storage &>(*this)(key);
  }
  size_t operator()(const key_type &key) const {
    return static_cast<const hasher_storage &>(*this)(key);
  }
  size_t operator()(const value_type &value) {
    return static_cast<hasher_storage &>(*this)(value.first);
  }
  size_t operator()(const value_type &value) const {
    return static_cast<const hasher_storage &>(*this)(value.first);
  }
  template <typename F, typename S>
  size_t operator()(const std::pair<F, S> &value) {
    return static_cast<hasher_storage &>(*this)(value.first);
  }
  template <typename F, typename S>
  size_t operator()(const std::pair<F, S> &value) const {
    return static_cast<const hasher_storage &>(*this)(value.first);
  }
};
template <typename key_type, typename value_type, typename key_equal>
struct KeyOrValueEquality : functor_storage<bool, key_equal> {
  typedef functor_storage<bool, key_equal> equality_storage;
  KeyOrValueEquality() = default;
  KeyOrValueEquality(const key_equal &equality) : equality_storage(equality) {}
  bool operator()(const key_type &lhs, const key_type &rhs) {
    return static_cast<equality_storage &>(*this)(lhs, rhs);
  }
  bool operator()(const key_type &lhs, const value_type &rhs) {
    return static_cast<equality_storage &>(*this)(lhs, rhs.first);
  }
  bool operator()(const value_type &lhs, const key_type &rhs) {
    return static_cast<equality_storage &>(*this)(lhs.first, rhs);
  }
  bool operator()(const value_type &lhs, const value_type &rhs) {
    return static_cast<equality_storage &>(*this)(lhs.first, rhs.first);
  }
  template <typename F, typename S>
  bool operator()(const key_type &lhs, const std::pair<F, S> &rhs) {
    return static_cast<equality_storage &>(*this)(lhs, rhs.first);
  }
  template <typename F, typename S>
  bool operator()(const std::pair<F, S> &lhs, const key_type &rhs) {
    return static_cast<equality_storage &>(*this)(lhs.first, rhs);
  }
  template <typename F, typename S>
  bool operator()(const value_type &lhs, const std::pair<F, S> &rhs) {
    return static_cast<equality_storage &>(*this)(lhs.first, rhs.first);
  }
  template <typename F, typename S>
  bool operator()(const std::pair<F, S> &lhs, const value_type &rhs) {
    return static_cast<equality_storage &>(*this)(lhs.first, rhs.first);
  }
  template <typename FL, typename SL, typename FR, typename SR>
  bool operator()(const std::pair<FL, SL> &lhs, const std::pair<FR, SR> &rhs) {
    return static_cast<equality_storage &>(*this)(lhs.first, rhs.first);
  }
};
static constexpr int8_t min_lookups = 4;
template <typename T>
struct sherwood_v3_entry {
  sherwood_v3_entry() {}
  sherwood_v3_entry(int8_t distance_from_desired)
      : distance_from_desired(distance_from_desired) {}
  ~sherwood_v3_entry() {}
  static sherwood_v3_entry *empty_default_table() {
    static sherwood_v3_entry result[min_lookups] = {
        {}, {}, {}, {special_end_value}};
    return result;
  }

  bool has_value() const { return distance_from_desired >= 0; }
  bool is_empty() const { return distance_from_desired < 0; }
  bool is_at_desired_position() const { return distance_from_desired <= 0; }
  template <typename... Args>
  void emplace(int8_t distance, Args &&...args) {
    new (std::addressof(value)) T(std::forward<Args>(args)...);
    distance_from_desired = distance;
  }

  void destroy_value() {
    value.~T();
    distance_from_desired = -1;
  }

  int8_t distance_from_desired = -1;
  static constexpr int8_t special_end_value = 0;
  union {
    T value;
  };
};

inline int8_t log2(size_t value) {
  static constexpr int8_t table[64] = {
      63, 0,  58, 1,  59, 47, 53, 2,  60, 39, 48, 27, 54, 33, 42, 3,
      61, 51, 37, 40, 49, 18, 28, 20, 55, 30, 34, 11, 43, 14, 22, 4,
      62, 57, 46, 52, 38, 26, 32, 41, 50, 36, 17, 19, 29, 10, 13, 21,
      56, 45, 25, 31, 35, 16, 9,  12, 44, 24, 15, 8,  23, 7,  6,  5};
  value |= value >> 1;
  value |= value >> 2;
  value |= value >> 4;
  value |= value >> 8;
  value |= value >> 16;
  value |= value >> 32;
  return table[((value - (value >> 1)) * 0x07EDD5E59A4E28C2) >> 58];
}

template <typename T, bool>
struct AssignIfTrue {
  void operator()(T &lhs, const T &rhs) { lhs = rhs; }
  void operator()(T &lhs, T &&rhs) { lhs = std::move(rhs); }
};
template <typename T>
struct AssignIfTrue<T, false> {
  void operator()(T &, const T &) {}
  void operator()(T &, T &&) {}
};

inline size_t next_power_of_two(size_t i) {
  --i;
  i |= i >> 1;
  i |= i >> 2;
  i |= i >> 4;
  i |= i >> 8;
  i |= i >> 16;
  i |= i >> 32;
  ++i;
  return i;
}

template <typename...>
using void_t = void;

template <typename T, typename = void>
struct HashPolicySelector {
  typedef fibonacci_hash_policy type;
};
template <typename T>
struct HashPolicySelector<T, void_t<typename T::hash_policy>> {
  typedef typename T::hash_policy type;
};

template <typename T,
          typename FindKey,
          typename ArgumentHash,
          typename Hasher,
          typename ArgumentEqual,
          typename Equal,
          typename ArgumentAlloc,
          typename EntryAlloc>
class sherwood_v3_table : private EntryAlloc, private Hasher, private Equal {
  using Entry = detailv3::sherwood_v3_entry<T>;
  using AllocatorTraits = std::allocator_traits<EntryAlloc>;
  using EntryPointer = typename AllocatorTraits::pointer;
  struct convertible_to_iterator;

 public:
  using value_type = T;
  using size_type = size_t;
  using difference_type = std::ptrdiff_t;
  using hasher = ArgumentHash;
  using key_equal = ArgumentEqual;
  using allocator_type = EntryAlloc;
  using reference = value_type &;
  using const_reference = const value_type &;
  using pointer = value_type *;
  using const_pointer = const value_type *;

  sherwood_v3_table() {}
  explicit sherwood_v3_table(size_type bucket_count,
                             const ArgumentHash &hash = ArgumentHash(),
                             const ArgumentEqual &equal = ArgumentEqual(),
                             const ArgumentAlloc &alloc = ArgumentAlloc())
      : EntryAlloc(alloc), Hasher(hash), Equal(equal) {
    rehash(bucket_count);
  }
  sherwood_v3_table(size_type bucket_count, const ArgumentAlloc &alloc)
      : sherwood_v3_table(
            bucket_count, ArgumentHash(), ArgumentEqual(), alloc) {}
  sherwood_v3_table(size_type bucket_count,
                    const ArgumentHash &hash,
                    const ArgumentAlloc &alloc)
      : sherwood_v3_table(bucket_count, hash, ArgumentEqual(), alloc) {}
  explicit sherwood_v3_table(const ArgumentAlloc &alloc) : EntryAlloc(alloc) {}
  template <typename It>
  sherwood_v3_table(It first,
                    It last,
                    size_type bucket_count = 0,
                    const ArgumentHash &hash = ArgumentHash(),
                    const ArgumentEqual &equal = ArgumentEqual(),
                    const ArgumentAlloc &alloc = ArgumentAlloc())
      : sherwood_v3_table(bucket_count, hash, equal, alloc) {
    insert(first, last);
  }
  template <typename It>
  sherwood_v3_table(It first,
                    It last,
                    size_type bucket_count,
                    const ArgumentAlloc &alloc)
      : sherwood_v3_table(
            first, last, bucket_count, ArgumentHash(), ArgumentEqual(), alloc) {
  }
  template <typename It>
  sherwood_v3_table(It first,
                    It last,
                    size_type bucket_count,
                    const ArgumentHash &hash,
                    const ArgumentAlloc &alloc)
      : sherwood_v3_table(
            first, last, bucket_count, hash, ArgumentEqual(), alloc) {}
  sherwood_v3_table(std::initializer_list<T> il,
                    size_type bucket_count = 0,
                    const ArgumentHash &hash = ArgumentHash(),
                    const ArgumentEqual &equal = ArgumentEqual(),
                    const ArgumentAlloc &alloc = ArgumentAlloc())
      : sherwood_v3_table(bucket_count, hash, equal, alloc) {
    if (bucket_count == 0) rehash(il.size());
    insert(il.begin(), il.end());
  }
  sherwood_v3_table(std::initializer_list<T> il,
                    size_type bucket_count,
                    const ArgumentAlloc &alloc)
      : sherwood_v3_table(
            il, bucket_count, ArgumentHash(), ArgumentEqual(), alloc) {}
  sherwood_v3_table(std::initializer_list<T> il,
                    size_type bucket_count,
                    const ArgumentHash &hash,
                    const ArgumentAlloc &alloc)
      : sherwood_v3_table(il, bucket_count, hash, ArgumentEqual(), alloc) {}
  sherwood_v3_table(const sherwood_v3_table &other)
      : sherwood_v3_table(
            other,
            AllocatorTraits::select_on_container_copy_construction(
                other.get_allocator())) {}
  sherwood_v3_table(const sherwood_v3_table &other, const ArgumentAlloc &alloc)
      : EntryAlloc(alloc),
        Hasher(other),
        Equal(other),
        _max_load_factor(other._max_load_factor) {
    rehash_for_other_container(other);
    try {
      insert(other.begin(), other.end());
    } catch (...) {
      clear();
      deallocate_data(entries, num_slots_minus_one, max_lookups);
      throw;
    }
  }
  sherwood_v3_table(sherwood_v3_table &&other) noexcept
      : EntryAlloc(std::move(other)),
        Hasher(std::move(other)),
        Equal(std::move(other)) {
    swap_pointers(other);
  }
  sherwood_v3_table(sherwood_v3_table &&other,
                    const ArgumentAlloc &alloc) noexcept
      : EntryAlloc(alloc), Hasher(std::move(other)), Equal(std::move(other)) {
    swap_pointers(other);
  }
  sherwood_v3_table &operator=(const sherwood_v3_table &other) {
    if (this == std::addressof(other)) return *this;

    clear();
    if (AllocatorTraits::propagate_on_container_copy_assignment::value) {
      if (static_cast<EntryAlloc &>(*this) !=
          static_cast<const EntryAlloc &>(other)) {
        reset_to_empty_state();
      }
      AssignIfTrue<
          EntryAlloc,
          AllocatorTraits::propagate_on_container_copy_assignment::value>()(
          *this, other);
    }
    _max_load_factor = other._max_load_factor;
    static_cast<Hasher &>(*this) = other;
    static_cast<Equal &>(*this) = other;
    rehash_for_other_container(other);
    insert(other.begin(), other.end());
    return *this;
  }
  sherwood_v3_table &operator=(sherwood_v3_table &&other) noexcept {
    if (this == std::addressof(other))
      return *this;
    else if (AllocatorTraits::propagate_on_container_move_assignment::value) {
      clear();
      reset_to_empty_state();
      AssignIfTrue<
          EntryAlloc,
          AllocatorTraits::propagate_on_container_move_assignment::value>()(
          *this, std::move(other));
      swap_pointers(other);
    } else if (static_cast<EntryAlloc &>(*this) ==
               static_cast<EntryAlloc &>(other)) {
      swap_pointers(other);
    } else {
      clear();
      _max_load_factor = other._max_load_factor;
      rehash_for_other_container(other);
      for (T &elem : other) emplace(std::move(elem));
      other.clear();
    }
    static_cast<Hasher &>(*this) = std::move(other);
    static_cast<Equal &>(*this) = std::move(other);
    return *this;
  }
  ~sherwood_v3_table() {
    clear();
    deallocate_data(entries, num_slots_minus_one, max_lookups);
  }

  const allocator_type &get_allocator() const {
    return static_cast<const allocator_type &>(*this);
  }
  const ArgumentEqual &key_eq() const {
    return static_cast<const ArgumentEqual &>(*this);
  }
  const ArgumentHash &hash_function() const {
    return static_cast<const ArgumentHash &>(*this);
  }

  template <typename ValueType>
  struct templated_iterator {
    templated_iterator() = default;
    templated_iterator(EntryPointer current) : current(current) {}
    EntryPointer current = EntryPointer();

    using iterator_category = std::forward_iterator_tag;
    using value_type = ValueType;
    using difference_type = ptrdiff_t;
    using pointer = ValueType *;
    using reference = ValueType &;

    friend bool operator==(const templated_iterator &lhs,
                           const templated_iterator &rhs) {
      return lhs.current == rhs.current;
    }
    friend bool operator!=(const templated_iterator &lhs,
                           const templated_iterator &rhs) {
      return !(lhs == rhs);
    }

    templated_iterator &operator++() {
      do {
        ++current;
      } while (current->is_empty());
      return *this;
    }
    templated_iterator operator++(int) {
      templated_iterator copy(*this);
      ++*this;
      return copy;
    }

    ValueType &operator*() const { return current->value; }
    ValueType *operator->() const { return std::addressof(current->value); }

    operator templated_iterator<const value_type>() const { return {current}; }
  };
  using iterator = templated_iterator<value_type>;
  using const_iterator = templated_iterator<const value_type>;

  iterator begin() {
    for (EntryPointer it = entries;; ++it) {
      if (it->has_value()) return {it};
    }
  }
  const_iterator begin() const {
    for (EntryPointer it = entries;; ++it) {
      if (it->has_value()) return {it};
    }
  }
  const_iterator cbegin() const { return begin(); }
  iterator end() {
    return {entries +
            static_cast<ptrdiff_t>(num_slots_minus_one + max_lookups)};
  }
  const_iterator end() const {
    return {entries +
            static_cast<ptrdiff_t>(num_slots_minus_one + max_lookups)};
  }
  const_iterator cend() const { return end(); }

  iterator find(const FindKey &key) {
    size_t index =
        hash_policy.index_for_hash(hash_object(key), num_slots_minus_one);
    EntryPointer it = entries + ptrdiff_t(index);
    for (int8_t distance = 0; it->distance_from_desired >= distance;
         ++distance, ++it) {
      if (compares_equal(key, it->value)) return {it};
    }
    return end();
  }
  const_iterator find(const FindKey &key) const {
    return const_cast<sherwood_v3_table *>(this)->find(key);
  }
  size_t count(const FindKey &key) const { return find(key) == end() ? 0 : 1; }
  std::pair<iterator, iterator> equal_range(const FindKey &key) {
    iterator found = find(key);
    if (found == end())
      return {found, found};
    else
      return {found, std::next(found)};
  }
  std::pair<const_iterator, const_iterator> equal_range(
      const FindKey &key) const {
    const_iterator found = find(key);
    if (found == end())
      return {found, found};
    else
      return {found, std::next(found)};
  }

  template <typename Key, typename... Args>
  std::pair<iterator, bool> emplace(Key &&key, Args &&...args) {
    size_t index =
        hash_policy.index_for_hash(hash_object(key), num_slots_minus_one);
    EntryPointer current_entry = entries + ptrdiff_t(index);
    int8_t distance_from_desired = 0;
    for (; current_entry->distance_from_desired >= distance_from_desired;
         ++current_entry, ++distance_from_desired) {
      if (compares_equal(key, current_entry->value))
        return {{current_entry}, false};
    }
    return emplace_new_key(distance_from_desired,
                           current_entry,
                           std::forward<Key>(key),
                           std::forward<Args>(args)...);
  }

  std::pair<iterator, bool> insert(const value_type &value) {
    return emplace(value);
  }
  std::pair<iterator, bool> insert(value_type &&value) {
    return emplace(std::move(value));
  }
  template <typename... Args>
  iterator emplace_hint(const_iterator, Args &&...args) {
    return emplace(std::forward<Args>(args)...).first;
  }
  iterator insert(const_iterator, const value_type &value) {
    return emplace(value).first;
  }
  iterator insert(const_iterator, value_type &&value) {
    return emplace(std::move(value)).first;
  }

  template <typename It>
  void insert(It begin, It end) {
    for (; begin != end; ++begin) {
      emplace(*begin);
    }
  }
  void insert(std::initializer_list<value_type> il) {
    insert(il.begin(), il.end());
  }

  void rehash(size_t num_buckets) {
    num_buckets = (std::max)(
        num_buckets,
        static_cast<size_t>(
            std::ceil(num_elements / static_cast<double>(_max_load_factor))));
    if (num_buckets == 0) {
      reset_to_empty_state();
      return;
    }
    auto new_prime_index = hash_policy.next_size_over(num_buckets);
    if (num_buckets == bucket_count()) return;
    int8_t new_max_lookups = compute_max_lookups(num_buckets);
    EntryPointer new_buckets(
        AllocatorTraits::allocate(*this, num_buckets + new_max_lookups));
    EntryPointer special_end_item =
        new_buckets + static_cast<ptrdiff_t>(num_buckets + new_max_lookups - 1);
    for (EntryPointer it = new_buckets; it != special_end_item; ++it)
      it->distance_from_desired = -1;
    special_end_item->distance_from_desired = Entry::special_end_value;
    std::swap(entries, new_buckets);
    std::swap(num_slots_minus_one, num_buckets);
    --num_slots_minus_one;
    hash_policy.commit(new_prime_index);
    int8_t old_max_lookups = max_lookups;
    max_lookups = new_max_lookups;
    num_elements = 0;
    for (EntryPointer
             it = new_buckets,
             end = it + static_cast<ptrdiff_t>(num_buckets + old_max_lookups);
         it != end;
         ++it) {
      if (it->has_value()) {
        emplace(std::move(it->value));
        it->destroy_value();
      }
    }
    deallocate_data(new_buckets, num_buckets, old_max_lookups);
  }

  void reserve(size_t num_elements) {
    size_t required_buckets = num_buckets_for_reserve(num_elements);
    if (required_buckets > bucket_count()) rehash(required_buckets);
  }

  // the return value is a type that can be converted to an iterator
  // the reason for doing this is that it's not free to find the
  // iterator pointing at the next element. if you care about the
  // next iterator, turn the return value into an iterator
  convertible_to_iterator erase(const_iterator to_erase) {
    EntryPointer current = to_erase.current;
    current->destroy_value();
    --num_elements;
    for (EntryPointer next = current + ptrdiff_t(1);
         !next->is_at_desired_position();
         ++current, ++next) {
      current->emplace(next->distance_from_desired - 1, std::move(next->value));
      next->destroy_value();
    }
    return {to_erase.current};
  }

  iterator erase(const_iterator begin_it, const_iterator end_it) {
    if (begin_it == end_it) return {begin_it.current};
    for (EntryPointer it = begin_it.current, end = end_it.current; it != end;
         ++it) {
      if (it->has_value()) {
        it->destroy_value();
        --num_elements;
      }
    }
    if (end_it == this->end()) return this->end();
    ptrdiff_t num_to_move =
        std::min(static_cast<ptrdiff_t>(end_it.current->distance_from_desired),
                 end_it.current - begin_it.current);
    EntryPointer to_return = end_it.current - num_to_move;
    for (EntryPointer it = end_it.current; !it->is_at_desired_position();) {
      EntryPointer target = it - num_to_move;
      target->emplace(it->distance_from_desired - num_to_move,
                      std::move(it->value));
      it->destroy_value();
      ++it;
      num_to_move = std::min(static_cast<ptrdiff_t>(it->distance_from_desired),
                             num_to_move);
    }
    return {to_return};
  }

  size_t erase(const FindKey &key) {
    auto found = find(key);
    if (found == end())
      return 0;
    else {
      erase(found);
      return 1;
    }
  }

  void clear() {
    for (EntryPointer it = entries,
                      end = it + static_cast<ptrdiff_t>(num_slots_minus_one +
                                                        max_lookups);
         it != end;
         ++it) {
      if (it->has_value()) it->destroy_value();
    }
    num_elements = 0;
  }

  void shrink_to_fit() { rehash_for_other_container(*this); }

  void swap(sherwood_v3_table &other) {
    using std::swap;
    swap_pointers(other);
    swap(static_cast<ArgumentHash &>(*this),
         static_cast<ArgumentHash &>(other));
    swap(static_cast<ArgumentEqual &>(*this),
         static_cast<ArgumentEqual &>(other));
    if (AllocatorTraits::propagate_on_container_swap::value)
      swap(static_cast<EntryAlloc &>(*this), static_cast<EntryAlloc &>(other));
  }

  size_t size() const { return num_elements; }
  size_t max_size() const {
    return (AllocatorTraits::max_size(*this)) / sizeof(Entry);
  }
  size_t bucket_count() const {
    return num_slots_minus_one ? num_slots_minus_one + 1 : 0;
  }
  size_type max_bucket_count() const {
    return (AllocatorTraits::max_size(*this) - min_lookups) / sizeof(Entry);
  }
  size_t bucket(const FindKey &key) const {
    return hash_policy.index_for_hash(hash_object(key), num_slots_minus_one);
  }
  float load_factor() const {
    size_t buckets = bucket_count();
    if (buckets)
      return static_cast<float>(num_elements) / bucket_count();
    else
      return 0;
  }
  void max_load_factor(float value) { _max_load_factor = value; }
  float max_load_factor() const { return _max_load_factor; }

  bool empty() const { return num_elements == 0; }

 private:
  EntryPointer entries = Entry::empty_default_table();
  size_t num_slots_minus_one = 0;
  typename HashPolicySelector<ArgumentHash>::type hash_policy;
  int8_t max_lookups = detailv3::min_lookups - 1;
  float _max_load_factor = 0.5f;
  size_t num_elements = 0;

  static int8_t compute_max_lookups(size_t num_buckets) {
    int8_t desired = detailv3::log2(num_buckets);
    return (std::max)(detailv3::min_lookups, desired);
  }

  size_t num_buckets_for_reserve(size_t num_elements) const {
    return static_cast<size_t>(std::ceil(
        num_elements / std::min(0.5, static_cast<double>(_max_load_factor))));
  }
  void rehash_for_other_container(const sherwood_v3_table &other) {
    rehash(
        std::min(num_buckets_for_reserve(other.size()), other.bucket_count()));
  }

  void swap_pointers(sherwood_v3_table &other) {
    using std::swap;
    swap(hash_policy, other.hash_policy);
    swap(entries, other.entries);
    swap(num_slots_minus_one, other.num_slots_minus_one);
    swap(num_elements, other.num_elements);
    swap(max_lookups, other.max_lookups);
    swap(_max_load_factor, other._max_load_factor);
  }

  template <typename Key, typename... Args>
  SKA_NOINLINE(std::pair<iterator, bool>)
  emplace_new_key(int8_t distance_from_desired,
                  EntryPointer current_entry,
                  Key &&key,
                  Args &&...args) {
    using std::swap;
    if (num_slots_minus_one == 0 || distance_from_desired == max_lookups ||
        num_elements + 1 >
            (num_slots_minus_one + 1) * static_cast<double>(_max_load_factor)) {
      grow();
      return emplace(std::forward<Key>(key), std::forward<Args>(args)...);
    } else if (current_entry->is_empty()) {
      current_entry->emplace(distance_from_desired,
                             std::forward<Key>(key),
                             std::forward<Args>(args)...);
      ++num_elements;
      return {{current_entry}, true};
    }
    value_type to_insert(std::forward<Key>(key), std::forward<Args>(args)...);
    swap(distance_from_desired, current_entry->distance_from_desired);
    swap(to_insert, current_entry->value);
    iterator result = {current_entry};
    for (++distance_from_desired, ++current_entry;; ++current_entry) {
      if (current_entry->is_empty()) {
        current_entry->emplace(distance_from_desired, std::move(to_insert));
        ++num_elements;
        return {result, true};
      } else if (current_entry->distance_from_desired < distance_from_desired) {
        swap(distance_from_desired, current_entry->distance_from_desired);
        swap(to_insert, current_entry->value);
        ++distance_from_desired;
      } else {
        ++distance_from_desired;
        if (distance_from_desired == max_lookups) {
          swap(to_insert, result.current->value);
          grow();
          return emplace(std::move(to_insert));
        }
      }
    }
  }

  void grow() { rehash((std::max)(size_t(4), 2 * bucket_count())); }

  void deallocate_data(EntryPointer begin,
                       size_t num_slots_minus_one,
                       int8_t max_lookups) {
    if (begin != Entry::empty_default_table()) {
      AllocatorTraits::deallocate(
          *this, begin, num_slots_minus_one + max_lookups + 1);
    }
  }

  void reset_to_empty_state() {
    deallocate_data(entries, num_slots_minus_one, max_lookups);
    entries = Entry::empty_default_table();
    num_slots_minus_one = 0;
    hash_policy.reset();
    max_lookups = detailv3::min_lookups - 1;
  }

  template <typename U>
  size_t hash_object(const U &key) {
    return static_cast<Hasher &>(*this)(key);
  }
  template <typename U>
  size_t hash_object(const U &key) const {
    return static_cast<const Hasher &>(*this)(key);
  }
  template <typename L, typename R>
  bool compares_equal(const L &lhs, const R &rhs) {
    return static_cast<Equal &>(*this)(lhs, rhs);
  }

  struct convertible_to_iterator {
    EntryPointer it;

    operator iterator() {
      if (it->has_value())
        return {it};
      else
        return ++iterator{it};
    }
    operator const_iterator() {
      if (it->has_value())
        return {it};
      else
        return ++const_iterator{it};
    }
  };
};
}  // namespace detailv3

struct prime_number_hash_policy {
  static size_t mod0(size_t) { return 0llu; }
  static size_t mod2(size_t hash) { return hash % 2llu; }
  static size_t mod3(size_t hash) { return hash % 3llu; }
  static size_t mod5(size_t hash) { return hash % 5llu; }
  static size_t mod7(size_t hash) { return hash % 7llu; }
  static size_t mod11(size_t hash) { return hash % 11llu; }
  static size_t mod13(size_t hash) { return hash % 13llu; }
  static size_t mod17(size_t hash) { return hash % 17llu; }
  static size_t mod23(size_t hash) { return hash % 23llu; }
  static size_t mod29(size_t hash) { return hash % 29llu; }
  static size_t mod37(size_t hash) { return hash % 37llu; }
  static size_t mod47(size_t hash) { return hash % 47llu; }
  static size_t mod59(size_t hash) { return hash % 59llu; }
  static size_t mod73(size_t hash) { return hash % 73llu; }
  static size_t mod97(size_t hash) { return hash % 97llu; }
  static size_t mod127(size_t hash) { return hash % 127llu; }
  static size_t mod151(size_t hash) { return hash % 151llu; }
  static size_t mod197(size_t hash) { return hash % 197llu; }
  static size_t mod251(size_t hash) { return hash % 251llu; }
  static size_t mod313(size_t hash) { return hash % 313llu; }
  static size_t mod397(size_t hash) { return hash % 397llu; }
  static size_t mod499(size_t hash) { return hash % 499llu; }
  static size_t mod631(size_t hash) { return hash % 631llu; }
  static size_t mod797(size_t hash) { return hash % 797llu; }
  static size_t mod1009(size_t hash) { return hash % 1009llu; }
  static size_t mod1259(size_t hash) { return hash % 1259llu; }
  static size_t mod1597(size_t hash) { return hash % 1597llu; }
  static size_t mod2011(size_t hash) { return hash % 2011llu; }
  static size_t mod2539(size_t hash) { return hash % 2539llu; }
  static size_t mod3203(size_t hash) { return hash % 3203llu; }
  static size_t mod4027(size_t hash) { return hash % 4027llu; }
  static size_t mod5087(size_t hash) { return hash % 5087llu; }
  static size_t mod6421(size_t hash) { return hash % 6421llu; }
  static size_t mod8089(size_t hash) { return hash % 8089llu; }
  static size_t mod10193(size_t hash) { return hash % 10193llu; }
  static size_t mod12853(size_t hash) { return hash % 12853llu; }
  static size_t mod16193(size_t hash) { return hash % 16193llu; }
  static size_t mod20399(size_t hash) { return hash % 20399llu; }
  static size_t mod25717(size_t hash) { return hash % 25717llu; }
  static size_t mod32401(size_t hash) { return hash % 32401llu; }
  static size_t mod40823(size_t hash) { return hash % 40823llu; }
  static size_t mod51437(size_t hash) { return hash % 51437llu; }
  static size_t mod64811(size_t hash) { return hash % 64811llu; }
  static size_t mod81649(size_t hash) { return hash % 81649llu; }
  static size_t mod102877(size_t hash) { return hash % 102877llu; }
  static size_t mod129607(size_t hash) { return hash % 129607llu; }
  static size_t mod163307(size_t hash) { return hash % 163307llu; }
  static size_t mod205759(size_t hash) { return hash % 205759llu; }
  static size_t mod259229(size_t hash) { return hash % 259229llu; }
  static size_t mod326617(size_t hash) { return hash % 326617llu; }
  static size_t mod411527(size_t hash) { return hash % 411527llu; }
  static size_t mod518509(size_t hash) { return hash % 518509llu; }
  static size_t mod653267(size_t hash) { return hash % 653267llu; }
  static size_t mod823117(size_t hash) { return hash % 823117llu; }
  static size_t mod1037059(size_t hash) { return hash % 1037059llu; }
  static size_t mod1306601(size_t hash) { return hash % 1306601llu; }
  static size_t mod1646237(size_t hash) { return hash % 1646237llu; }
  static size_t mod2074129(size_t hash) { return hash % 2074129llu; }
  static size_t mod2613229(size_t hash) { return hash % 2613229llu; }
  static size_t mod3292489(size_t hash) { return hash % 3292489llu; }
  static size_t mod4148279(size_t hash) { return hash % 4148279llu; }
  static size_t mod5226491(size_t hash) { return hash % 5226491llu; }
  static size_t mod6584983(size_t hash) { return hash % 6584983llu; }
  static size_t mod8296553(size_t hash) { return hash % 8296553llu; }
  static size_t mod10453007(size_t hash) { return hash % 10453007llu; }
  static size_t mod13169977(size_t hash) { return hash % 13169977llu; }
  static size_t mod16593127(size_t hash) { return hash % 16593127llu; }
  static size_t mod20906033(size_t hash) { return hash % 20906033llu; }
  static size_t mod26339969(size_t hash) { return hash % 26339969llu; }
  static size_t mod33186281(size_t hash) { return hash % 33186281llu; }
  static size_t mod41812097(size_t hash) { return hash % 41812097llu; }
  static size_t mod52679969(size_t hash) { return hash % 52679969llu; }
  static size_t mod66372617(size_t hash) { return hash % 66372617llu; }
  static size_t mod83624237(size_t hash) { return hash % 83624237llu; }
  static size_t mod105359939(size_t hash) { return hash % 105359939llu; }
  static size_t mod132745199(size_t hash) { return hash % 132745199llu; }
  static size_t mod167248483(size_t hash) { return hash % 167248483llu; }
  static size_t mod210719881(size_t hash) { return hash % 210719881llu; }
  static size_t mod265490441(size_t hash) { return hash % 265490441llu; }
  static size_t mod334496971(size_t hash) { return hash % 334496971llu; }
  static size_t mod421439783(size_t hash) { return hash % 421439783llu; }
  static size_t mod530980861(size_t hash) { return hash % 530980861llu; }
  static size_t mod668993977(size_t hash) { return hash % 668993977llu; }
  static size_t mod842879579(size_t hash) { return hash % 842879579llu; }
  static size_t mod1061961721(size_t hash) { return hash % 1061961721llu; }
  static size_t mod1337987929(size_t hash) { return hash % 1337987929llu; }
  static size_t mod1685759167(size_t hash) { return hash % 1685759167llu; }
  static size_t mod2123923447(size_t hash) { return hash % 2123923447llu; }
  static size_t mod2675975881(size_t hash) { return hash % 2675975881llu; }
  static size_t mod3371518343(size_t hash) { return hash % 3371518343llu; }
  static size_t mod4247846927(size_t hash) { return hash % 4247846927llu; }
  static size_t mod5351951779(size_t hash) { return hash % 5351951779llu; }
  static size_t mod6743036717(size_t hash) { return hash % 6743036717llu; }
  static size_t mod8495693897(size_t hash) { return hash % 8495693897llu; }
  static size_t mod10703903591(size_t hash) { return hash % 10703903591llu; }
  static size_t mod13486073473(size_t hash) { return hash % 13486073473llu; }
  static size_t mod16991387857(size_t hash) { return hash % 16991387857llu; }
  static size_t mod21407807219(size_t hash) { return hash % 21407807219llu; }
  static size_t mod26972146961(size_t hash) { return hash % 26972146961llu; }
  static size_t mod33982775741(size_t hash) { return hash % 33982775741llu; }
  static size_t mod42815614441(size_t hash) { return hash % 42815614441llu; }
  static size_t mod53944293929(size_t hash) { return hash % 53944293929llu; }
  static size_t mod67965551447(size_t hash) { return hash % 67965551447llu; }
  static size_t mod85631228929(size_t hash) { return hash % 85631228929llu; }
  static size_t mod107888587883(size_t hash) { return hash % 107888587883llu; }
  static size_t mod135931102921(size_t hash) { return hash % 135931102921llu; }
  static size_t mod171262457903(size_t hash) { return hash % 171262457903llu; }
  static size_t mod215777175787(size_t hash) { return hash % 215777175787llu; }
  static size_t mod271862205833(size_t hash) { return hash % 271862205833llu; }
  static size_t mod342524915839(size_t hash) { return hash % 342524915839llu; }
  static size_t mod431554351609(size_t hash) { return hash % 431554351609llu; }
  static size_t mod543724411781(size_t hash) { return hash % 543724411781llu; }
  static size_t mod685049831731(size_t hash) { return hash % 685049831731llu; }
  static size_t mod863108703229(size_t hash) { return hash % 863108703229llu; }
  static size_t mod1087448823553(size_t hash) {
    return hash % 1087448823553llu;
  }
  static size_t mod1370099663459(size_t hash) {
    return hash % 1370099663459llu;
  }
  static size_t mod1726217406467(size_t hash) {
    return hash % 1726217406467llu;
  }
  static size_t mod2174897647073(size_t hash) {
    return hash % 2174897647073llu;
  }
  static size_t mod2740199326961(size_t hash) {
    return hash % 2740199326961llu;
  }
  static size_t mod3452434812973(size_t hash) {
    return hash % 3452434812973llu;
  }
  static size_t mod4349795294267(size_t hash) {
    return hash % 4349795294267llu;
  }
  static size_t mod5480398654009(size_t hash) {
    return hash % 5480398654009llu;
  }
  static size_t mod6904869625999(size_t hash) {
    return hash % 6904869625999llu;
  }
  static size_t mod8699590588571(size_t hash) {
    return hash % 8699590588571llu;
  }
  static size_t mod10960797308051(size_t hash) {
    return hash % 10960797308051llu;
  }
  static size_t mod13809739252051(size_t hash) {
    return hash % 13809739252051llu;
  }
  static size_t mod17399181177241(size_t hash) {
    return hash % 17399181177241llu;
  }
  static size_t mod21921594616111(size_t hash) {
    return hash % 21921594616111llu;
  }
  static size_t mod27619478504183(size_t hash) {
    return hash % 27619478504183llu;
  }
  static size_t mod34798362354533(size_t hash) {
    return hash % 34798362354533llu;
  }
  static size_t mod43843189232363(size_t hash) {
    return hash % 43843189232363llu;
  }
  static size_t mod55238957008387(size_t hash) {
    return hash % 55238957008387llu;
  }
  static size_t mod69596724709081(size_t hash) {
    return hash % 69596724709081llu;
  }
  static size_t mod87686378464759(size_t hash) {
    return hash % 87686378464759llu;
  }
  static size_t mod110477914016779(size_t hash) {
    return hash % 110477914016779llu;
  }
  static size_t mod139193449418173(size_t hash) {
    return hash % 139193449418173llu;
  }
  static size_t mod175372756929481(size_t hash) {
    return hash % 175372756929481llu;
  }
  static size_t mod220955828033581(size_t hash) {
    return hash % 220955828033581llu;
  }
  static size_t mod278386898836457(size_t hash) {
    return hash % 278386898836457llu;
  }
  static size_t mod350745513859007(size_t hash) {
    return hash % 350745513859007llu;
  }
  static size_t mod441911656067171(size_t hash) {
    return hash % 441911656067171llu;
  }
  static size_t mod556773797672909(size_t hash) {
    return hash % 556773797672909llu;
  }
  static size_t mod701491027718027(size_t hash) {
    return hash % 701491027718027llu;
  }
  static size_t mod883823312134381(size_t hash) {
    return hash % 883823312134381llu;
  }
  static size_t mod1113547595345903(size_t hash) {
    return hash % 1113547595345903llu;
  }
  static size_t mod1402982055436147(size_t hash) {
    return hash % 1402982055436147llu;
  }
  static size_t mod1767646624268779(size_t hash) {
    return hash % 1767646624268779llu;
  }
  static size_t mod2227095190691797(size_t hash) {
    return hash % 2227095190691797llu;
  }
  static size_t mod2805964110872297(size_t hash) {
    return hash % 2805964110872297llu;
  }
  static size_t mod3535293248537579(size_t hash) {
    return hash % 3535293248537579llu;
  }
  static size_t mod4454190381383713(size_t hash) {
    return hash % 4454190381383713llu;
  }
  static size_t mod5611928221744609(size_t hash) {
    return hash % 5611928221744609llu;
  }
  static size_t mod7070586497075177(size_t hash) {
    return hash % 7070586497075177llu;
  }
  static size_t mod8908380762767489(size_t hash) {
    return hash % 8908380762767489llu;
  }
  static size_t mod11223856443489329(size_t hash) {
    return hash % 11223856443489329llu;
  }
  static size_t mod14141172994150357(size_t hash) {
    return hash % 14141172994150357llu;
  }
  static size_t mod17816761525534927(size_t hash) {
    return hash % 17816761525534927llu;
  }
  static size_t mod22447712886978529(size_t hash) {
    return hash % 22447712886978529llu;
  }
  static size_t mod28282345988300791(size_t hash) {
    return hash % 28282345988300791llu;
  }
  static size_t mod35633523051069991(size_t hash) {
    return hash % 35633523051069991llu;
  }
  static size_t mod44895425773957261(size_t hash) {
    return hash % 44895425773957261llu;
  }
  static size_t mod56564691976601587(size_t hash) {
    return hash % 56564691976601587llu;
  }
  static size_t mod71267046102139967(size_t hash) {
    return hash % 71267046102139967llu;
  }
  static size_t mod89790851547914507(size_t hash) {
    return hash % 89790851547914507llu;
  }
  static size_t mod113129383953203213(size_t hash) {
    return hash % 113129383953203213llu;
  }
  static size_t mod142534092204280003(size_t hash) {
    return hash % 142534092204280003llu;
  }
  static size_t mod179581703095829107(size_t hash) {
    return hash % 179581703095829107llu;
  }
  static size_t mod226258767906406483(size_t hash) {
    return hash % 226258767906406483llu;
  }
  static size_t mod285068184408560057(size_t hash) {
    return hash % 285068184408560057llu;
  }
  static size_t mod359163406191658253(size_t hash) {
    return hash % 359163406191658253llu;
  }
  static size_t mod452517535812813007(size_t hash) {
    return hash % 452517535812813007llu;
  }
  static size_t mod570136368817120201(size_t hash) {
    return hash % 570136368817120201llu;
  }
  static size_t mod718326812383316683(size_t hash) {
    return hash % 718326812383316683llu;
  }
  static size_t mod905035071625626043(size_t hash) {
    return hash % 905035071625626043llu;
  }
  static size_t mod1140272737634240411(size_t hash) {
    return hash % 1140272737634240411llu;
  }
  static size_t mod1436653624766633509(size_t hash) {
    return hash % 1436653624766633509llu;
  }
  static size_t mod1810070143251252131(size_t hash) {
    return hash % 1810070143251252131llu;
  }
  static size_t mod2280545475268481167(size_t hash) {
    return hash % 2280545475268481167llu;
  }
  static size_t mod2873307249533267101(size_t hash) {
    return hash % 2873307249533267101llu;
  }
  static size_t mod3620140286502504283(size_t hash) {
    return hash % 3620140286502504283llu;
  }
  static size_t mod4561090950536962147(size_t hash) {
    return hash % 4561090950536962147llu;
  }
  static size_t mod5746614499066534157(size_t hash) {
    return hash % 5746614499066534157llu;
  }
  static size_t mod7240280573005008577(size_t hash) {
    return hash % 7240280573005008577llu;
  }
  static size_t mod9122181901073924329(size_t hash) {
    return hash % 9122181901073924329llu;
  }
  static size_t mod11493228998133068689(size_t hash) {
    return hash % 11493228998133068689llu;
  }
  static size_t mod14480561146010017169(size_t hash) {
    return hash % 14480561146010017169llu;
  }
  static size_t mod18446744073709551557(size_t hash) {
    return hash % 18446744073709551557llu;
  }

  using mod_function = size_t (*)(size_t);

  mod_function next_size_over(size_t &size) const {
    // prime numbers generated by the following method:
    // 1. start with a prime p = 2
    // 2. go to wolfram alpha and get p = NextPrime(2 * p)
    // 3. repeat 2. until you overflow 64 bits
    // you now have large gaps which you would hit if somebody called reserve()
    // with an unlucky number.
    // 4. to fill the gaps for every prime p go to wolfram alpha and get
    // ClosestPrime(p * 2^(1/3)) and ClosestPrime(p * 2^(2/3)) and put those in
    // the gaps
    // 5. get PrevPrime(2^64) and put it at the end
    static constexpr const size_t prime_list[] = {2llu,
                                                  3llu,
                                                  5llu,
                                                  7llu,
                                                  11llu,
                                                  13llu,
                                                  17llu,
                                                  23llu,
                                                  29llu,
                                                  37llu,
                                                  47llu,
                                                  59llu,
                                                  73llu,
                                                  97llu,
                                                  127llu,
                                                  151llu,
                                                  197llu,
                                                  251llu,
                                                  313llu,
                                                  397llu,
                                                  499llu,
                                                  631llu,
                                                  797llu,
                                                  1009llu,
                                                  1259llu,
                                                  1597llu,
                                                  2011llu,
                                                  2539llu,
                                                  3203llu,
                                                  4027llu,
                                                  5087llu,
                                                  6421llu,
                                                  8089llu,
                                                  10193llu,
                                                  12853llu,
                                                  16193llu,
                                                  20399llu,
                                                  25717llu,
                                                  32401llu,
                                                  40823llu,
                                                  51437llu,
                                                  64811llu,
                                                  81649llu,
                                                  102877llu,
                                                  129607llu,
                                                  163307llu,
                                                  205759llu,
                                                  259229llu,
                                                  326617llu,
                                                  411527llu,
                                                  518509llu,
                                                  653267llu,
                                                  823117llu,
                                                  1037059llu,
                                                  1306601llu,
                                                  1646237llu,
                                                  2074129llu,
                                                  2613229llu,
                                                  3292489llu,
                                                  4148279llu,
                                                  5226491llu,
                                                  6584983llu,
                                                  8296553llu,
                                                  10453007llu,
                                                  13169977llu,
                                                  16593127llu,
                                                  20906033llu,
                                                  26339969llu,
                                                  33186281llu,
                                                  41812097llu,
                                                  52679969llu,
                                                  66372617llu,
                                                  83624237llu,
                                                  105359939llu,
                                                  132745199llu,
                                                  167248483llu,
                                                  210719881llu,
                                                  265490441llu,
                                                  334496971llu,
                                                  421439783llu,
                                                  530980861llu,
                                                  668993977llu,
                                                  842879579llu,
                                                  1061961721llu,
                                                  1337987929llu,
                                                  1685759167llu,
                                                  2123923447llu,
                                                  2675975881llu,
                                                  3371518343llu,
                                                  4247846927llu,
                                                  5351951779llu,
                                                  6743036717llu,
                                                  8495693897llu,
                                                  10703903591llu,
                                                  13486073473llu,
                                                  16991387857llu,
                                                  21407807219llu,
                                                  26972146961llu,
                                                  33982775741llu,
                                                  42815614441llu,
                                                  53944293929llu,
                                                  67965551447llu,
                                                  85631228929llu,
                                                  107888587883llu,
                                                  135931102921llu,
                                                  171262457903llu,
                                                  215777175787llu,
                                                  271862205833llu,
                                                  342524915839llu,
                                                  431554351609llu,
                                                  543724411781llu,
                                                  685049831731llu,
                                                  863108703229llu,
                                                  1087448823553llu,
                                                  1370099663459llu,
                                                  1726217406467llu,
                                                  2174897647073llu,
                                                  2740199326961llu,
                                                  3452434812973llu,
                                                  4349795294267llu,
                                                  5480398654009llu,
                                                  6904869625999llu,
                                                  8699590588571llu,
                                                  10960797308051llu,
                                                  13809739252051llu,
                                                  17399181177241llu,
                                                  21921594616111llu,
                                                  27619478504183llu,
                                                  34798362354533llu,
                                                  43843189232363llu,
                                                  55238957008387llu,
                                                  69596724709081llu,
                                                  87686378464759llu,
                                                  110477914016779llu,
                                                  139193449418173llu,
                                                  175372756929481llu,
                                                  220955828033581llu,
                                                  278386898836457llu,
                                                  350745513859007llu,
                                                  441911656067171llu,
                                                  556773797672909llu,
                                                  701491027718027llu,
                                                  883823312134381llu,
                                                  1113547595345903llu,
                                                  1402982055436147llu,
                                                  1767646624268779llu,
                                                  2227095190691797llu,
                                                  2805964110872297llu,
                                                  3535293248537579llu,
                                                  4454190381383713llu,
                                                  5611928221744609llu,
                                                  7070586497075177llu,
                                                  8908380762767489llu,
                                                  11223856443489329llu,
                                                  14141172994150357llu,
                                                  17816761525534927llu,
                                                  22447712886978529llu,
                                                  28282345988300791llu,
                                                  35633523051069991llu,
                                                  44895425773957261llu,
                                                  56564691976601587llu,
                                                  71267046102139967llu,
                                                  89790851547914507llu,
                                                  113129383953203213llu,
                                                  142534092204280003llu,
                                                  179581703095829107llu,
                                                  226258767906406483llu,
                                                  285068184408560057llu,
                                                  359163406191658253llu,
                                                  452517535812813007llu,
                                                  570136368817120201llu,
                                                  718326812383316683llu,
                                                  905035071625626043llu,
                                                  1140272737634240411llu,
                                                  1436653624766633509llu,
                                                  1810070143251252131llu,
                                                  2280545475268481167llu,
                                                  2873307249533267101llu,
                                                  3620140286502504283llu,
                                                  4561090950536962147llu,
                                                  5746614499066534157llu,
                                                  7240280573005008577llu,
                                                  9122181901073924329llu,
                                                  11493228998133068689llu,
                                                  14480561146010017169llu,
                                                  18446744073709551557llu};
    static constexpr size_t (*const mod_functions[])(size_t) = {
        &mod0,
        &mod2,
        &mod3,
        &mod5,
        &mod7,
        &mod11,
        &mod13,
        &mod17,
        &mod23,
        &mod29,
        &mod37,
        &mod47,
        &mod59,
        &mod73,
        &mod97,
        &mod127,
        &mod151,
        &mod197,
        &mod251,
        &mod313,
        &mod397,
        &mod499,
        &mod631,
        &mod797,
        &mod1009,
        &mod1259,
        &mod1597,
        &mod2011,
        &mod2539,
        &mod3203,
        &mod4027,
        &mod5087,
        &mod6421,
        &mod8089,
        &mod10193,
        &mod12853,
        &mod16193,
        &mod20399,
        &mod25717,
        &mod32401,
        &mod40823,
        &mod51437,
        &mod64811,
        &mod81649,
        &mod102877,
        &mod129607,
        &mod163307,
        &mod205759,
        &mod259229,
        &mod326617,
        &mod411527,
        &mod518509,
        &mod653267,
        &mod823117,
        &mod1037059,
        &mod1306601,
        &mod1646237,
        &mod2074129,
        &mod2613229,
        &mod3292489,
        &mod4148279,
        &mod5226491,
        &mod6584983,
        &mod8296553,
        &mod10453007,
        &mod13169977,
        &mod16593127,
        &mod20906033,
        &mod26339969,
        &mod33186281,
        &mod41812097,
        &mod52679969,
        &mod66372617,
        &mod83624237,
        &mod105359939,
        &mod132745199,
        &mod167248483,
        &mod210719881,
        &mod265490441,
        &mod334496971,
        &mod421439783,
        &mod530980861,
        &mod668993977,
        &mod842879579,
        &mod1061961721,
        &mod1337987929,
        &mod1685759167,
        &mod2123923447,
        &mod2675975881,
        &mod3371518343,
        &mod4247846927,
        &mod5351951779,
        &mod6743036717,
        &mod8495693897,
        &mod10703903591,
        &mod13486073473,
        &mod16991387857,
        &mod21407807219,
        &mod26972146961,
        &mod33982775741,
        &mod42815614441,
        &mod53944293929,
        &mod67965551447,
        &mod85631228929,
        &mod107888587883,
        &mod135931102921,
        &mod171262457903,
        &mod215777175787,
        &mod271862205833,
        &mod342524915839,
        &mod431554351609,
        &mod543724411781,
        &mod685049831731,
        &mod863108703229,
        &mod1087448823553,
        &mod1370099663459,
        &mod1726217406467,
        &mod2174897647073,
        &mod2740199326961,
        &mod3452434812973,
        &mod4349795294267,
        &mod5480398654009,
        &mod6904869625999,
        &mod8699590588571,
        &mod10960797308051,
        &mod13809739252051,
        &mod17399181177241,
        &mod21921594616111,
        &mod27619478504183,
        &mod34798362354533,
        &mod43843189232363,
        &mod55238957008387,
        &mod69596724709081,
        &mod87686378464759,
        &mod110477914016779,
        &mod139193449418173,
        &mod175372756929481,
        &mod220955828033581,
        &mod278386898836457,
        &mod350745513859007,
        &mod441911656067171,
        &mod556773797672909,
        &mod701491027718027,
        &mod883823312134381,
        &mod1113547595345903,
        &mod1402982055436147,
        &mod1767646624268779,
        &mod2227095190691797,
        &mod2805964110872297,
        &mod3535293248537579,
        &mod4454190381383713,
        &mod5611928221744609,
        &mod7070586497075177,
        &mod8908380762767489,
        &mod11223856443489329,
        &mod14141172994150357,
        &mod17816761525534927,
        &mod22447712886978529,
        &mod28282345988300791,
        &mod35633523051069991,
        &mod44895425773957261,
        &mod56564691976601587,
        &mod71267046102139967,
        &mod89790851547914507,
        &mod113129383953203213,
        &mod142534092204280003,
        &mod179581703095829107,
        &mod226258767906406483,
        &mod285068184408560057,
        &mod359163406191658253,
        &mod452517535812813007,
        &mod570136368817120201,
        &mod718326812383316683,
        &mod905035071625626043,
        &mod1140272737634240411,
        &mod1436653624766633509,
        &mod1810070143251252131,
        &mod2280545475268481167,
        &mod2873307249533267101,
        &mod3620140286502504283,
        &mod4561090950536962147,
        &mod5746614499066534157,
        &mod7240280573005008577,
        &mod9122181901073924329,
        &mod11493228998133068689,
        &mod14480561146010017169,
        &mod18446744073709551557};
    const size_t *found = std::lower_bound(
        std::begin(prime_list), std::end(prime_list) - 1, size);
    size = *found;
    return mod_functions[1 + found - prime_list];
  }
  void commit(mod_function new_mod_function) {
    current_mod_function = new_mod_function;
  }
  void reset() { current_mod_function = &mod0; }

  size_t index_for_hash(size_t hash, size_t /*num_slots_minus_one*/) const {
    return current_mod_function(hash);
  }
  size_t keep_in_range(size_t index, size_t num_slots_minus_one) const {
    return index > num_slots_minus_one ? current_mod_function(index) : index;
  }

 private:
  mod_function current_mod_function = &mod0;
};

struct power_of_two_hash_policy {
  size_t index_for_hash(size_t hash, size_t num_slots_minus_one) const {
    return hash & num_slots_minus_one;
  }
  size_t keep_in_range(size_t index, size_t num_slots_minus_one) const {
    return index_for_hash(index, num_slots_minus_one);
  }
  int8_t next_size_over(size_t &size) const {
    size = detailv3::next_power_of_two(size);
    return 0;
  }
  void commit(int8_t) {}
  void reset() {}
};

struct fibonacci_hash_policy {
  size_t index_for_hash(size_t hash, size_t /*num_slots_minus_one*/) const {
    return (11400714819323198485ull * hash) >> shift;
  }
  size_t keep_in_range(size_t index, size_t num_slots_minus_one) const {
    return index & num_slots_minus_one;
  }

  int8_t next_size_over(size_t &size) const {
    size = (std::max)(size_t(2), detailv3::next_power_of_two(size));
    return 64 - detailv3::log2(size);
  }
  void commit(int8_t shift) { this->shift = shift; }
  void reset() { shift = 63; }

 private:
  int8_t shift = 63;
};

template <typename K,
          typename V,
          typename H = std::hash<K>,
          typename E = std::equal_to<K>,
          typename A = std::allocator<std::pair<K, V>>>
class flat_hash_map
    : public detailv3::sherwood_v3_table<
          std::pair<K, V>,
          K,
          H,
          detailv3::KeyOrValueHasher<K, std::pair<K, V>, H>,
          E,
          detailv3::KeyOrValueEquality<K, std::pair<K, V>, E>,
          A,
          typename std::allocator_traits<A>::template rebind_alloc<
              detailv3::sherwood_v3_entry<std::pair<K, V>>>> {
  using Table = detailv3::sherwood_v3_table<
      std::pair<K, V>,
      K,
      H,
      detailv3::KeyOrValueHasher<K, std::pair<K, V>, H>,
      E,
      detailv3::KeyOrValueEquality<K, std::pair<K, V>, E>,
      A,
      typename std::allocator_traits<A>::template rebind_alloc<
          detailv3::sherwood_v3_entry<std::pair<K, V>>>>;

 public:
  using key_type = K;
  using mapped_type = V;

  using Table::Table;
  flat_hash_map() {}

  inline V &operator[](const K &key) {
    return emplace(key, convertible_to_value()).first->second;
  }
  inline V &operator[](K &&key) {
    return emplace(std::move(key), convertible_to_value()).first->second;
  }
  V &at(const K &key) {
    auto found = this->find(key);
    if (found == this->end())
      throw std::out_of_range("Argument passed to at() was not in the map.");
    return found->second;
  }
  const V &at(const K &key) const {
    auto found = this->find(key);
    if (found == this->end())
      throw std::out_of_range("Argument passed to at() was not in the map.");
    return found->second;
  }

  using Table::emplace;
  std::pair<typename Table::iterator, bool> emplace() {
    return emplace(key_type(), convertible_to_value());
  }
  template <typename M>
  std::pair<typename Table::iterator, bool> insert_or_assign(
      const key_type &key, M &&m) {
    auto emplace_result = emplace(key, std::forward<M>(m));
    if (!emplace_result.second)
      emplace_result.first->second = std::forward<M>(m);
    return emplace_result;
  }
  template <typename M>
  std::pair<typename Table::iterator, bool> insert_or_assign(key_type &&key,
                                                             M &&m) {
    auto emplace_result = emplace(std::move(key), std::forward<M>(m));
    if (!emplace_result.second)
      emplace_result.first->second = std::forward<M>(m);
    return emplace_result;
  }
  template <typename M>
  typename Table::iterator insert_or_assign(typename Table::const_iterator,
                                            const key_type &key,
                                            M &&m) {
    return insert_or_assign(key, std::forward<M>(m)).first;
  }
  template <typename M>
  typename Table::iterator insert_or_assign(typename Table::const_iterator,
                                            key_type &&key,
                                            M &&m) {
    return insert_or_assign(std::move(key), std::forward<M>(m)).first;
  }

  friend bool operator==(const flat_hash_map &lhs, const flat_hash_map &rhs) {
    if (lhs.size() != rhs.size()) return false;
    for (const typename Table::value_type &value : lhs) {
      auto found = rhs.find(value.first);
      if (found == rhs.end())
        return false;
      else if (value.second != found->second)
        return false;
    }
    return true;
  }
  friend bool operator!=(const flat_hash_map &lhs, const flat_hash_map &rhs) {
    return !(lhs == rhs);
  }

 private:
  struct convertible_to_value {
    operator V() const { return V(); }
  };
};

template <typename T,
          typename H = std::hash<T>,
          typename E = std::equal_to<T>,
          typename A = std::allocator<T>>
class flat_hash_set
    : public detailv3::sherwood_v3_table<
          T,
          T,
          H,
          detailv3::functor_storage<size_t, H>,
          E,
          detailv3::functor_storage<bool, E>,
          A,
          typename std::allocator_traits<A>::template rebind_alloc<
              detailv3::sherwood_v3_entry<T>>> {
  using Table = detailv3::sherwood_v3_table<
      T,
      T,
      H,
      detailv3::functor_storage<size_t, H>,
      E,
      detailv3::functor_storage<bool, E>,
      A,
      typename std::allocator_traits<A>::template rebind_alloc<
          detailv3::sherwood_v3_entry<T>>>;

 public:
  using key_type = T;

  using Table::Table;
  flat_hash_set() {}

  template <typename... Args>
  std::pair<typename Table::iterator, bool> emplace(Args &&...args) {
    return Table::emplace(T(std::forward<Args>(args)...));
  }
  std::pair<typename Table::iterator, bool> emplace(const key_type &arg) {
    return Table::emplace(arg);
  }
  std::pair<typename Table::iterator, bool> emplace(key_type &arg) {
    return Table::emplace(arg);
  }
  std::pair<typename Table::iterator, bool> emplace(const key_type &&arg) {
    return Table::emplace(std::move(arg));
  }
  std::pair<typename Table::iterator, bool> emplace(key_type &&arg) {
    return Table::emplace(std::move(arg));
  }

  friend bool operator==(const flat_hash_set &lhs, const flat_hash_set &rhs) {
    if (lhs.size() != rhs.size()) return false;
    for (const T &value : lhs) {
      if (rhs.find(value) == rhs.end()) return false;
    }
    return true;
  }
  friend bool operator!=(const flat_hash_set &lhs, const flat_hash_set &rhs) {
    return !(lhs == rhs);
  }
};

template <typename T>
struct power_of_two_std_hash : std::hash<T> {
  typedef paddle::power_of_two_hash_policy hash_policy;
};

}  // namespace paddle
